Träg J, Duchstein P, Hennemann M, Clark T, Guldi DM, Zahn D (2019)
Publication Type: Journal article
Publication year: 2019
We present atomic scale models of differently sized eumelanin nanoaggregates from molecular dynamics simulations combined with a simulated annealing procedure. The analysis reveals the formation of secondary structures due to π-stacking on one hand, but on the other hand a broad distribution of stack geometries in terms of stack size, horizontal displacement angles, and relative torsion angles. The displacement angle distribution, which is a measure of the occurrence of zigzag and linear stacking motives, respectively, strongly depends on the aggregate size - and is hence controlled by the interplay of surface and bulk energy terms. Semiempirical spectra calculations of small stacks (up to five protomolecules) reveal a strong dependence on the precise stack structure and allow for a direct structure-property correlation. The observed spectral shifts result in an overall spectral broadening and, hence, further support the geometric disorder model, which complements the chemical disorder model in the interpretation of eumelanin's monotonically increasing broad-band absorption.
APA:
Träg, J., Duchstein, P., Hennemann, M., Clark, T., Guldi, D.M., & Zahn, D. (2019). Size-Dependent Local Ordering in Melanin Aggregates and Its Implication on Optical Properties. Journal of Physical Chemistry A. https://doi.org/10.1021/acs.jpca.9b08722
MLA:
Träg, Johannes, et al. "Size-Dependent Local Ordering in Melanin Aggregates and Its Implication on Optical Properties." Journal of Physical Chemistry A (2019).
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